A self-lifting unmanned aerial vehicle station
The design of a multi-stage lifting mechanism and dustproof side panels solves the problems of fixed height and insufficient protection of the drone workstation platform, achieving flexible adjustment and enhanced protection performance, and facilitating transportation.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- YALONG RIVER HYDROPOWER DEV CO LTD
- Filing Date
- 2025-08-18
- Publication Date
- 2026-07-07
AI Technical Summary
Existing drone workstation platforms have fixed heights and cannot be flexibly adjusted. They also lack effective protection in complex terrains and harsh environments, leading to equipment wear and tear or malfunctions.
It adopts a multi-stage lifting mechanism and main lifting body, combined with detachable dustproof side panels, to achieve flexible adjustment of platform height and provide dust protection during lifting.
It enables the drone working platform to be highly flexible in complex terrain, enhances the protective performance of the equipment, reduces the erosion of internal equipment by dust and rainwater, and saves space for easy transportation.
Smart Images

Figure CN224466165U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of unmanned aerial vehicle (UAV) operation equipment technology, and in particular to a self-elevating UAV workstation. Background Technology
[0002] Traditional drone workstations typically use simple brackets or box-type structures for drone take-off, landing, and charging. The platform height is fixed and lacks flexible adjustment capabilities.
[0003] Some workstations with lifting functions offer limited lifting height and a low height adjustment range, making it difficult to effectively adapt to actual terrain elevation differences or operational needs, thus limiting their application in complex sites (such as material yards and stockyards).
[0004] In addition, existing workstations are generally inadequate in terms of adaptability to engineering environments, especially in open-air working environments with high dust concentrations or harsh climates, where the protective design is weak, which can easily lead to equipment wear or failure. Utility Model Content
[0005] This invention aims to solve the technical problems of limited working height and poor protection for outdoor work provided by existing self-elevating drone workstations, and provides a self-elevating drone workstation.
[0006] To solve the above-mentioned technical problems, the specific technical solution of this utility model is as follows:
[0007] A self-elevating drone workstation includes:
[0008] A drone placement platform is equipped with a charging dock so that the drone can be placed on the drone placement platform;
[0009] A multi-stage lifting mechanism is connected to the lower end of the drone placement platform;
[0010] A main lifting body, which is connected to the base, and the main lifting body is connected to the multi-stage lifting mechanism; and
[0011] The dustproof side panel can be detachably and fixedly connected to the UAV mounting platform, and the dustproof side panel is provided with a slide rail. The slide rail can form a rail connection with the rollers provided on the first-stage telescopic column of the multi-stage lifting mechanism, so that the dustproof side panel can provide dust protection when the telescopic column of the multi-stage lifting mechanism is raised and lowered.
[0012] Alternatively, the drone deployment platform includes:
[0013] The platform board body has a working outer shell connected to its lower part;
[0014] The working housing integrates a power supply and a control terminal.
[0015] The charging dock is electrically connected to the power supply, and the charging connection end of the charging dock extends out of the surface of the platform plate body.
[0016] Optionally, a side plate fixing part is connected to the lower part of the platform plate body;
[0017] A set of side plate fixing parts are arranged on both sides of the working housing;
[0018] The side plate fixing part is provided with a threaded connection hole;
[0019] The dustproof side plate is provided with mating threaded holes, and the dustproof side plate is connected to the side plate fixing part by connecting fastening bolts;
[0020] The slide is arranged along the height direction of the dustproof side plate.
[0021] Alternatively, the multi-stage lifting mechanism is a four-stage hydraulic multi-stage telescopic body, which is driven and controlled by a hydraulic system for extension and retraction;
[0022] The four-stage hydraulic multi-stage telescopic body includes:
[0023] One basic telescopic body and three matching telescopic columns;
[0024] The final stage is the end connector of the telescopic column, which is fixedly connected to the working housing.
[0025] Alternatively, the basic telescopic body is fixedly mounted on a fixed base;
[0026] The rollers are provided on the side of the fixed base.
[0027] Alternatively, the roller includes:
[0028] The roller body is rotatably connected to a roller seat;
[0029] The roller body has an insert and a rolling element;
[0030] The insert can be inserted into the slide rail, and the rolling element is used to contact the dustproof side plate.
[0031] Alternatively, the main lifting body includes:
[0032] The main lifting plate is arranged horizontally and is fixedly connected to the fixed base through multiple supporting connecting columns.
[0033] The plurality of the supporting connecting columns are arranged in a ring, and a set of the supporting connecting columns is arranged at the center of the main lifting plate;
[0034] A support cylinder connection end is provided below the main lifting plate.
[0035] Alternatively, the main lifting body may further include:
[0036] Base;
[0037] Two sets of lifting cylinders are installed above the base, and the output end of the lifting cylinders is oriented in the first direction;
[0038] The output end of the lifting cylinder is connected to a mating connector;
[0039] The mating connector is connected to the supporting cylinder connection end by fasteners.
[0040] Alternatively, extension plates can be detachably connected to both sides of the platform plate body.
[0041] This utility model has the following beneficial effects:
[0042] The beneficial effects of this utility model are as follows:
[0043] (1) This patent adopts a multi-stage lifting mechanism and a main lifting body to realize the graded lifting of the UAV working platform, and can flexibly adjust the platform height according to the changes in the material stacking height in complex terrains such as material yards and stockyards;
[0044] (2) Dustproof side panel, which generates linkage when the multi-stage lifting mechanism is in operation, effectively protects the multi-stage lifting mechanism and provides a certain lifting guidance function, effectively preventing environmental factors such as dust and rainwater from corroding the internal equipment;
[0045] (3) The overall self-elevating structure design saves space, facilitates transportation, and reduces the impact on construction. Attached Figure Description
[0046] The present invention will now be described in further detail with reference to the accompanying drawings and specific embodiments.
[0047] Figure 1 This is a schematic diagram of the structure of this utility model;
[0048] Figure 2 This is a schematic diagram of the multi-stage lifting mechanism of this utility model;
[0049] Figure 3 This is a schematic diagram of the main lifting body of this utility model;
[0050] Figure 4 This is a schematic diagram of the configuration of the slide rail of this utility model;
[0051] Figure 5 This is a partial enlarged view of the side plate fixing part of this utility model;
[0052] Figure 6 This is a schematic diagram of the cooperation between the slide and the roller of this utility model.
[0053] The reference numerals in the figure are:
[0054] The drone placement platform, charging base 101, multi-stage lifting mechanism 20, main lifting body 30, dustproof side plate 50, slide rail 501, and rollers 502;
[0055] Platform board body 102, working shell 103, working power supply 104, control terminal 105;
[0056] Side plate fixing part 11, threaded connection hole 12, mating threaded hole 13, connecting fastening bolt 14;
[0057] The basic telescopic body 201, the matching telescopic column 202, the connector 203, and the fixing seat 204;
[0058] Roller body 5021, roller seat 5022, insert 5023, rolling element 5024;
[0059] Main lifting plate 301, support connecting column 302, support cylinder connecting end 303;
[0060] Base 304, lifting cylinder 305, connecting parts 306, extension plate 107. Detailed Implementation
[0061] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model. It should be noted that, for ease of description, in this application, "left side" is referred to as "first end", "right side" as "second end", "upper side" as "first end", and "lower side" as "second end" in the current view. The purpose of such description is to clearly express the technical solution and should not be construed as an improper limitation of the technical solution of this application.
[0062] The problem this utility model solves is that existing drone workstation platforms typically have a fixed height, which cannot be flexibly adjusted according to changes in the height of materials piled up in material yards or stockpiles. This results in limited take-off and landing space for drones, meaning that existing drone workstations offer limited working height. Furthermore, increasing the working height for outdoor work lacks protection for the lifting structure. This protection primarily considers environmental factors such as heavy dust and variable weather in open-air sites, and the lack of effective dust protection design can easily lead to contamination or damage to internal equipment. Therefore, this technical solution provides the following design, please refer to the appendix. Figure 1-6 As shown, this self-elevating drone workstation includes:
[0063] The drone placement platform 10 is equipped with a charging dock 101 so that the drone 1 can be placed on the drone placement platform 10.
[0064] Multi-stage lifting mechanism 20, which is connected to the lower end of the UAV placement platform 10;
[0065] The main lifting body 30 is connected to the base and is also connected to the multi-stage lifting mechanism 20. That is, through the above technical solution, this solution provides two lifting structures, which significantly increase the adjustment range of the working height.
[0066] Given the increased working height, a dustproof device needs to be designed and implemented. In this solution, a 50mm dustproof side panel is used.
[0067] The dustproof side panel 50 can be detachably and fixedly connected to the UAV mounting platform 10. The dustproof side panel 50 is provided with a slide rail 501, which can form a rail connection with the roller 502 provided on the first-stage telescopic column of the multi-stage lifting mechanism 20. This allows the dustproof side panel 50 to provide dust protection when the telescopic column of the multi-stage lifting mechanism 20 is raised and lowered. In addition, it provides a guiding function for the lifting process, making the lifting process more stable and effectively protecting the internal power and control facilities.
[0068] In summary, the advantages of this technical solution are:
[0069] (1) This patent uses a multi-stage lifting mechanism 20 and a main lifting body 30 to realize the graded lifting of the UAV working platform, and can flexibly adjust the platform height according to the changes in the material stacking height in complex terrains such as material yards and stockyards;
[0070] (2) The dustproof side plate 50 is linked when the multi-stage lifting mechanism 20 is activated, which effectively protects the multi-stage lifting mechanism 20 and provides a certain lifting guidance function, effectively preventing environmental factors such as dust and rainwater from corroding the internal equipment.
[0071] (3) The overall self-elevating structure design saves space, facilitates transportation, and reduces the impact on construction.
[0072] In one specific embodiment, please refer to the appendix. Figure 1 , 3 As shown, the drone placement platform 10 includes:
[0073] The platform board body 102 has a working outer shell 103 connected to its lower part;
[0074] The working housing 103 integrates a working power supply 104 and a control terminal 105;
[0075] The charging dock 101 is electrically connected to the power supply 104, and the charging connection end of the charging dock 101 extends out of the surface of the platform plate body 102. Here, the dustproof side plate 50 provides full protection for the working shell 103, greatly increasing safety and protection performance. Specific configuration details are as follows:
[0076] A side plate fixing part 11 is connected to the lower part of the platform plate body 102;
[0077] A set of side plate fixing parts 11 are arranged on both sides of the working housing 103;
[0078] The side plate fixing part 11 is provided with a threaded connection hole 12;
[0079] The dustproof side plate 50 is provided with a mating threaded hole 13, and the dustproof side plate 50 is connected to the side plate fixing part 11 by connecting fastening bolts 14;
[0080] The slide 501 is arranged along the height direction of the dustproof side plate 50.
[0081] In one specific embodiment, please refer to the appendix. Figure 2 As shown, the multi-stage lifting mechanism 20 is a four-stage hydraulic multi-stage telescopic body, which is driven and controlled by a hydraulic system for extension and retraction.
[0082] The four-stage hydraulic multi-stage telescopic body includes:
[0083] One basic telescopic body 201 and three matching telescopic columns 202;
[0084] The final stage is connected to the end connector 203 of the telescopic column 202, and the connector 203 is fixedly connected to the working housing 103.
[0085] In one specific embodiment, please refer to the appendix. Figure 2 As shown, the basic telescopic body 201 is fixedly mounted on a fixed base 204;
[0086] Rollers 502 are provided on the side of the fixed base 204.
[0087] In one specific embodiment, please refer to the appendix. Figure 2 , 4 As shown in Figure 5, the roller 502 includes: a roller body 5021, which is rotatably connected to a roller seat 5022; the roller body 5021 has an insert 5023 and a rolling element 5024; the insert 5023 can be inserted into the slide rail 501, and the rolling element 5024 is used to contact the dustproof side plate 50, thus ensuring the rolling effect and providing a stable guiding effect.
[0088] In one specific embodiment, please refer to the appendix. Figure 3 As shown, another lifting mechanism is a main lifting body 30, which specifically includes a main lifting plate 301 arranged horizontally. The main lifting plate 301 is fixedly connected to the fixed seat 204 through multiple supporting connecting columns 302. The multiple supporting connecting columns 302 are arranged in a ring, and a set of supporting connecting columns 302 is arranged in the center of the main lifting plate 301 to provide stable support. A supporting cylinder connecting end 303 is provided below the main lifting plate 301.
[0089] In one specific embodiment, please refer to the appendix. Figure 2 As shown, the main lifting body 30 also includes: a base 304; two sets of lifting cylinders 305, which are installed above the base 304 and the output ends of the lifting cylinders 305 are oriented towards the first direction; the output ends of the lifting cylinders are connected to a mating connector 306; the mating connector 306 is connected to the support cylinder connection end 303 by fasteners.
[0090] Compared with existing technologies, this technical solution has two lifting mechanisms: a multi-stage lifting mechanism 20 and a main lifting body 30. These two mechanisms provide a more stable lifting effect, specifically:
[0091] The multi-stage lifting mechanism 20 mainly provides precise adjustment and control of the lifting height, and the hydraulic control makes the adjustment range more flexible.
[0092] The main lifting body 30 provides a dual-cylinder lifting effect, the main purpose of which is to output the maximum stroke. Since it is used outdoors, the dual-lifting mechanism effectively ensures the controllability of the lifting.
[0093] Furthermore, the dustproof side panel 50 can provide full-stroke protection for the multi-stage lifting mechanism 20, blocking the impact of most outdoor events and making it safer. Therefore, this technical solution can be applied to changes in the material stacking height in complex terrains such as material yards and stockyards, allowing for flexible adjustment of the platform height.
[0094] In one specific embodiment, please refer to the appendix. Figure 1 , 2As shown, the extension plates 107 can be detachably connected to both sides of the platform body 102. That is, the configuration of the extension plates 107 is an additional configuration requirement. It can be installed according to the actual situation. Depending on the specific outdoor application of the self-elevating drone workstation, it can be selectively installed to increase the actual working area or reduce the corresponding working area.
[0095] Obviously, the above embodiments are merely illustrative examples for clear explanation and are not intended to limit the implementation. Those skilled in the art will recognize that other variations or modifications can be made based on the above description. It is neither necessary nor possible to exhaustively list all possible implementations here. However, obvious variations or modifications derived therefrom are still within the protection scope of this invention.
Claims
1. A self-lifting unmanned aerial vehicle station, characterized in that, The utility model relates to a kind of unmanned aerial vehicle charging device, including: Unmanned aerial vehicle platform (10) is configured with charging seat (101), so that unmanned aerial vehicle can be placed on the unmanned aerial vehicle platform (10); Multi-stage lifting mechanism (20) is connected with the lower end of the unmanned aerial vehicle platform (10); Main lifting body (30) is connected on pedestal, and the main lifting body (30) is connected with the multi-stage lifting mechanism (20);And Dustproof side plate (50) can be detachably fixedly connected with the unmanned aerial vehicle platform (10), and the dustproof side plate (50) is provided with slide (501), and the slide (501) can be formed with the roller (502) on the telescopic column of the multi-stage lifting mechanism (20) Track connection, so that the telescopic column of the multi-stage lifting mechanism (20) can provide dustproof when lifting, the dustproof side plate (50) can provide dustproof.
2. The self-lifting drone station of claim 1, wherein, The unmanned aerial vehicle platform (10) includes: Platform plate main body (102), the lower side of the platform plate main body (102) is connected with working shell (103); The working shell (103) is integrated with working power supply (104) and control terminal (105) in it; The charging seat (101) is electrically connected with the working power supply (104), and the charging connection end of the charging seat (101) extends out of the surface of the platform plate main body (102).
3. The self-rising drone station of claim 2, wherein, The lower side of the platform plate main body (102) is connected with side plate fixing part (11); The two sides of the working shell (103) are respectively arranged with a group of side plate fixing parts (11); Threaded connection hole (12) is provided on the side plate fixing part (11); Cooperative threaded hole (13) is provided on the dustproof side plate (50), and the dustproof side plate (50) is connected on the side plate fixing part (11) by connecting fastening bolt (14); The slide (501) is arranged along the height direction of the dustproof side plate (50).
4. The self-rising drone station of claim 2, wherein, The multi-stage lifting mechanism (20) is four-stage hydraulic multi-stage telescopic body, and the telescopic body is driven and controlled by hydraulic system; Four-stage hydraulic multi-stage telescopic body includes: One basic telescopic body (201) and three matching telescopic columns (202); The end of the last stage of the matching telescopic column (202) is connected with connecting piece (203), and the connecting piece (203) is fixedly connected with the working shell (103).
5. The self-rising drone station of claim 4, wherein, The basic telescopic body (201) is fixedly arranged on a fixed seat (204); The side surface of the fixed seat (204) is provided with the roller (502).
6. The self-rising drone station of claim 5, wherein, The roller (502) includes: Roller body (5021) is rotatably connected with a roller seat (5022); The roller body (5021) has embedding body (5023) and rolling body (5024); The embedding body (5023) can be clamped into the slide (501), and the rolling body (5024) is used for contacting the dustproof side plate (50).
7. The self-rising drone station of claim 5, wherein, The main lifting body (30) includes: Main lifting plate (301) is horizontally arranged, and the main lifting plate (301) is fixedly connected with the fixed seat (204) through a plurality of support connecting columns (302); A plurality of support connecting columns (302) are arranged in a ring shape, and a group of support connecting columns (302) are arranged in the center of the main lifting plate (301); A support cylinder connecting end (303) is arranged below the main lifting plate (301).
8. The self-rising drone station of claim 7, wherein, The main lifting body (30) further comprises: A base (304); Two groups of jacking cylinders (305) are installed above the base (304), and the output ends of the jacking cylinders (305) are arranged towards a first direction; The output end of the jacking cylinder is connected with a matching connecting piece (306); The matching connecting piece (306) and the support cylinder connecting end (303) are connected through fasteners.
9. The self-lifting drone station of claim 2, wherein, The two sides of the platform plate body (102) can be detachably connected with extension plates (107).